FinalEffect.qml Example File

deferred-renderer-qml/FinalEffect.qml
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import Qt3D 2.0
import Qt3D.Renderer 2.0

Effect {
    techniques : [
        // OpenGL 3.1
        Technique {
            openGLFilter {api : OpenGLFilter.Desktop; profile : OpenGLFilter.Core; minorVersion : 1; majorVersion : 3 }
            parameters:  Parameter { name: "PointLightBlock"; value: ShaderData {
                    property ShaderDataArray lights: ShaderDataArray {
                        // hard coded lights until we have a way to filter
                        // ShaderData in a scene
                        values: [sceneEntity.light, sphere1.light, sphere2.light, light3.light, light4.light]
                    }
                }
            }
            renderPasses : RenderPass {
                annotations : Annotation { name : "pass"; value : "final" }
                shaderProgram : ShaderProgram {
                    id : finalShaderGL3
                    vertexShaderCode:
                        "#version 140

                        in vec4 vertexPosition;
                        uniform mat4 modelMatrix;

                        void main()
                        {
                            gl_Position = modelMatrix * vertexPosition;
                        }
                        "
                    fragmentShaderCode:
                        "#version 140

                        uniform sampler2D color;
                        uniform sampler2D position;
                        uniform sampler2D normal;
                        uniform vec2 winSize;

                        out vec4 fragColor;

                        struct PointLight
                        {
                            vec3 position;
                            vec3 direction;
                            vec4 color;
                            float intensity;
                        };

                        const int lightCount = 5;
                        uniform PointLightBlock {
                             PointLight lights[lightCount];
                        };

                        void main()
                        {
                            vec2 texCoord = gl_FragCoord.xy / winSize;
                            vec4 col = texture(color, texCoord);
                            vec3 pos = texture(position, texCoord).xyz;
                            vec3 norm = texture(normal, texCoord).xyz;

                            vec4 lightColor;
                            for (int i = 0; i < lightCount; i++) {
                                vec3 s = normalize(lights[i].position - pos);
                                lightColor += lights[i].color * (lights[i].intensity * max(dot(s, norm), 0.0));
                            }
                            lightColor /= float(lightCount);
                            fragColor = col * lightColor;
                        }
                                "
                }
            }
        },
        // OpenGL 2.0 with FBO extension
        Technique {
            openGLFilter {api : OpenGLFilter.Desktop; profile : OpenGLFilter.None; minorVersion : 0; majorVersion : 2 }
            parameters: Parameter { name: "pointLights"; value: ShaderData {
                                property ShaderDataArray lights: ShaderDataArray {
                                    // hard coded lights until we have a way to filter
                                    // ShaderData in a scene
                                    values: [sceneEntity.light, sphere1.light, sphere2.light, light3.light, light4.light]
                                }
                            }
                        }
            renderPasses : RenderPass {
                annotations : Annotation { name : "pass"; value : "final" }
                shaderProgram : ShaderProgram {
                    id : finalShaderGL2
                    vertexShaderCode:
                        "#version 110

                        attribute vec4 vertexPosition;
                        uniform mat4 modelMatrix;

                        void main()
                        {
                            gl_Position = modelMatrix * vertexPosition;
                        }
                                "
                    fragmentShaderCode:
                        "#version 110

                        uniform sampler2D color;
                        uniform sampler2D position;
                        uniform sampler2D normal;
                        uniform vec2 winSize;

                        struct PointLight
                        {
                            vec3 position;
                            vec3 direction;
                            vec4 color;
                            float intensity;
                        };

                        const int lightCount = 5;
                        uniform struct
                        {
                            PointLight lights[lightCount];
                        };

                        void main()
                        {
                            vec2 texCoord = gl_FragCoord.xy / winSize;
                            vec4 col = texture2D(color, texCoord);
                            vec3 pos = texture2D(position, texCoord).xyz;
                            vec3 norm = texture2D(normal, texCoord).xyz;

                            vec4 lightColor;
                            for (int i = 0; i < lightCount; i++) {
                                vec3 s = lights[i].position - pos);
                                lightColor += lights[i].color * (lights[i].intensity * max(dot(s, norm), 0.0));
                            }
                            lightColor /= float(lightCount);
                            gl_FragColor = col * lightColor;
                        }
                    "
                }
            }
        }]
}

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